Frequency increases proportionally. E=hf
If the amount of energy a wave carries is increased, the frequency would increase while the wavelength decreases. This is because energy is directly proportional to frequency and inversely proportional to wavelength in a wave.
When the energy of a wave increases, the frequency of the wave also increases. This is because frequency is directly proportional to energy in a wave. High frequency waves have more energy than low frequency waves.
If the frequency of a sound wave is increased, the pitch of the sound also increases, making it sound higher. This means that the number of complete cycles of the wave occurring in a second is increased.
As the frequency of an electromagnetic wave increases, the energy of the wave also increases. This is because the energy of an electromagnetic wave is directly proportional to its frequency, according to Planck's equation (E = hf), where E is energy, h is Planck's constant, and f is frequency.
If wavelength increases, frequency decreases inversely. Wave energy remains the same since it is determined by amplitude and not by wavelength or frequency.
If you are talking about an electromagnetic wave; energy is proportional to frequency (E=hf), and frequency is inversely proportional to wavelength (wavelength equals velocity divided by frequency). So when the wavelength is increased, the energy is decreased.
If the amount of energy a wave carries is increased, the frequency would increase while the wavelength decreases. This is because energy is directly proportional to frequency and inversely proportional to wavelength in a wave.
When the energy of a wave increases, the frequency of the wave also increases. This is because frequency is directly proportional to energy in a wave. High frequency waves have more energy than low frequency waves.
If the frequency of a sound wave is increased, the pitch of the sound also increases, making it sound higher. This means that the number of complete cycles of the wave occurring in a second is increased.
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As the frequency of an electromagnetic wave increases, the energy of the wave also increases. This is because the energy of an electromagnetic wave is directly proportional to its frequency, according to Planck's equation (E = hf), where E is energy, h is Planck's constant, and f is frequency.
If wavelength increases, frequency decreases inversely. Wave energy remains the same since it is determined by amplitude and not by wavelength or frequency.
If you are talking about an electromagnetic wave, energy is proportional to frequency (E=hf, h=Planck's constant). So by increasing frequency, the energy it carries is also increased.
As the wavelength of an electromagnetic wave decreases, the frequency of the wave increases. This means that the energy carried by the wave also increases, as energy is directly proportional to frequency. Therefore, shorter wavelength corresponds to higher frequency and energy in an electromagnetic wave.
The freequency of a wave is increased when the wavelength is decreased. This is because the product of the frequency and the wavelength are a constant that determines the speed of the wave c=fw.
When the amplitude and frequency of a wave are both increased, the wavelength remains constant. Amplitude affects the intensity or loudness of the wave, while frequency determines the pitch. Therefore, changing the amplitude and frequency does not alter the wavelength of the wave.
When the frequency of an electromagnetic wave is doubled, its energy and wavelength remain the same but its photon energy increases. This higher frequency wave will have shorter oscillation periods and carry more energy per photon compared to the original wave.